Method of Estimating and Removing Noise in Ofdm Systems

1. A method of estimating and removing noise in OFDM systems, comprising the steps of: receiving a set of OFDM symbols from a channel on a receiver, the set representing transmission of modulated data after an inverse Fourier transform and insertion of a cyclic prefix; removing the cyclic prefix from the set of OFDM symbols; performing a fast Fourier transform on the set of OFDM symbols; estimating impulse noise in the transformed set of OFDM symbols; canceling the impulse noise in the transformed set of OFDM symbols based upon the estimated impulse noise to produce a set of impulse noise-free data; estimating the channel utilizing a pilot-based method; demodulating and detecting the transmitted modulated data based upon the estimated channel and the set of impulse noise-free data; and wherein the step of estimating the impulse noise includes insertion of free carriers across a frequency spectrum, the free carriers being inserted randomly.

2. The method of estimating and removing noise in OFDM systems as recited in claim 1 , wherein the free carriers are randomly inserted in the guard bands of the frequency spectrum.

3. The method of estimating and removing noise in OFDM systems as recited in claim 1 , wherein the step of estimating the impulse noise comprises the steps of: estimating a coarse support of impulses; refining the support of the impulses; and estimating amplitudes of the impulses.

4. The method of estimating and removing noise in OFDM systems as recited in claim 3 , wherein the step of estimating the coarse support of the impulses includes a Compressive Sensing method.

5. The method of estimating and removing noise in OFDM systems as recited in claim 4 , wherein the Compressive Sensing method utilizes the Candes-Randall-Tao SOCP Estimator method.

6. The method of estimating and removing noise in OFDM systems as recited in claim 4 , wherein the Compressive Sensing method utilizes the Candes-Randall-Tao LP Estimator method.

7. The method of estimating and removing noise in OFDM systems as recited in claim 4 , wherein the Compressive Sensing method utilizes the Tropp l 1 -penalty Estimator method.

8. The method of estimating and removing noise in OFDM systems as recited in claim 3 , wherein the step of refining the support includes calculation of a maximum likelihood.

9. The method of estimating and removing noise in OFDM systems as recited in claim 3 , wherein the step of refining the support includes calculation of a maximum a posteriori probability.

10. The method of estimating and removing noise in OFDM systems as recited in claim 3 , wherein the step of estimating the amplitudes of the impulses includes a least squares method.

11. The method of estimating and removing noise in OFDM systems as recited in claim 3 , wherein the step of estimating the amplitudes of the impulses includes a minimum mean square error method.

12. The method of estimating and removing noise in OFDM systems as recited in claim 1 , wherein the step of estimating the channel utilizes a blind estimation method.

13. The method of estimating and removing noise in OFDM systems as recited in claim 1 , wherein the step of estimating the channel utilizes a semi-blind method.

14. The method of estimating and removing noise in OFDM systems as recited in claim 1 , wherein the step of estimating the channel utilizes a pilot-based method.

15. An OFDM system for estimating and removing noise in a received transmission, comprising a transceiver having a receiver and a transmitter, the transmitter having: a modulator for modulating data to be transmitted; means for performing an inverse fast Fourier transform on the modulated data; and means for inserting a cyclic prefix into the transformed, modulated data, wherein the transmitter transmits the transformed, modulated data as a set of OFDM symbols via a channel; the receiver receiving the set of OFDM symbols and having: means for performing a fast Fourier transform on the set of OFDM symbols; means for estimating impulse noise in the transformed set of OFDM symbols; means for canceling the impulse noise in the transformed set of OFDM symbols based upon the estimated impulse noise to produce a set of impulse noise-free data; means for estimating the channel; and means for demodulating and detecting the data transmitted based upon the estimated channel and the set of impulse noise-free data.

16. An OFDM system for estimating and removing noise in a received transmission, comprising: a transmitter having: a modulator for modulating data to be transmitted; means for performing an inverse fast Fourier transform on the modulated data; and means for inserting a cyclic prefix into the transformed, modulated data, wherein the transmitter transmits the transformed, modulated data as a set of OFDM symbols via a channel; a receiver receiving the set of OFDM symbols and having: means for removing the cyclic prefix from the set of OFDM symbols; means for performing a fast Fourier transform on the set of OFDM symbols; means for estimating impulse noise in the transformed set of OFDM symbols; means for canceling the impulse noise in the transformed set of OFDM symbols based upon the estimated impulse noise to produce a set of impulse noise-free data; means for estimating the channel; and means for demodulating and detecting the data transmitted based upon the estimated channel and the set of impulse noise-free data.